Verfügbarkeit: Incompressible flow

Incompressible flow:

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Bibliographische Detailangaben
1. Verfasser:	Panton, Ronald L. 1933- (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	New York [u.a.] Wiley 2005
Ausgabe:	3. ed.
Schlagworte:	Sıvı dinamiği aFluid dynamics Strömungsmechanik Inkompressible Strömung
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XVI, 821 S. Ill., graph. Darst.
ISBN:	047126122X 9780471261223

Internformat

MARC


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Datensatz im Suchindex

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adam_text	INCOMPRESSIBLE FLOW THIRD EDITION RONALD L. PANTON WILEY JOHN WILEY & SONS, INC. CONTENTS PREFACE XI PREFACE TO THE SECOND EDITION PREFACE TO THE FIRST EDITION 1 CONTINUUM MECHANICS XUL 1.1 CONTINUUM ASSUMPTION 3 1.2 FUNDAMENTAL CONCEPTS, DEFINITIONS, AND LAWS 3 1.3 SPACE AND TIME 5 1.4 DENSITY, VELOCITY, AND INTERNAL ENERGY 7 1.5 INTERFACE BETWEEN PHASES 10 1.6 CONCLUSIONS 12 PROBLEMS 14 2 THERMODYNAMICS 15 2.1 SYSTEMS, PROPERTIES, AND PROCESSES 15 2.2 INDEPENDENT VARIABLES 16 2.3 TEMPERATURE AND ENTROPY 17 2.4 FUNDAMENTAL EQUATIONS OF THERMODYNAMICS 18 2.5 EULER S EQUATION FOR HOMOGENEOUS FUNCTIONS 19 2.6 GIBBS-DUHEM EQUATION 20 2.7 INTENSIVE FORMS OF BASIC EQUATIONS 20 2.8 DIMENSIONS OF TEMPERATURE AND ENTROPY 21 2.9 WORKING EQUATIONS 21 2.10 IDEAL GAS 22 2.11 INCOMPRESSIBLE SUBSTANCE 25 2.12 CONCLUSIONS 25 PROBLEMS 26 3 VECTOR CALCULUS AND INDEX NOTATION 27 3.1 INDEX NOTATION RULES 28 3.2 DEFINITION OF VECTORS AND TENSORS 30 3.3 SPECIAL SYMBOLS AND ISOTROPIC TENSORS 31 3.4 DIRECTION COSINES AND THE LAW OF COSINES 32 3.5 ALGEBRA WITH VECTORS 33 3.6 SYMMETRIC AND ANTISYMMETRIC TENSORS 35 3.7 ALGEBRA WITH TENSORS 37 3.8 VECTOR CROSS-PRODUCT 38 3.9 ALTERNATIVE DEFINITIONS OF VECTORS AND TENSORS 40 3.10 PRINCIPAL AXES AND VALUES 41 3.11 DERIVATIVE OPERATIONS ON VECTOR FIELDS 42 3.12 INTEGRAL FORMULAS OF GAUSS AND STOKES 45 3.13 LEIBNITZ S THEOREM 47 3.14 CONCLUSIONS 48 PROBLEMS 49 4 KINEMATICS OF LOCAL FLUID MOTION 51 4.1 LAGRANGIAN VIEWPOINT 51 4.2 EULERIAN VIEWPOINT 54 4.3 SUBSTANTIAL DERIVATIVE 56 4.4 DECOMPOSITION OF MOTION 57 4.5 ELEMENTARY MOTIONS IN A LINEAR SHEAR ROW 61 4.6 PROOF OF VORTICITY CHARACTERISTICS 64 4.7 RATE-OF-STRAIN CHARACTERISTICS 65 4.8 RATE OF EXPANSION 66 4.9 STREAMLINE COORDINATES 67 4.10 CONCLUSIONS 69 PROBLEMS 69 5 BASIC LAWS 71 5.1 CONTINUITY EQUATION 71 5.2 MOMENTUM EQUATION 75 5.3 SURFACE FORCES 76 5.4 STRESS TENSOR DERIVATION 76 5.5 INTERPRETATION OF THE STRESS TENSOR COMPONENTS 78 5.6 PRESSURE AND VISCOUS STRESS TENSOR 80 5.7 DIFFERENTIAL MOMENTUM EQUATION 81 5.8 MOMENT OF MOMENTUM, ANGULAR MOMENTUM, AND SYMMETRY OF T TJ 85 5.9 ENERGY EQUATION 86 5.10 MECHANICAL AND THERMAL ENERGY EQUATIONS 89 5.11 ENERGY EQUATION WITH TEMPERATURE AS THE DEPENDENT VARIABLE 91 5.12 SECOND LAW OF THERMODYNAMICS 91 VI CONTENTS 5.13 INTEGRAL FORM OF THE CONTINUITY EQUATION 92 8.11 5.14 INTEGRAL FORM OF THE MOMENTUM EQUATION 94 5.15 MOMENTUM EQUATION FOR A DEFORMABLE PARTICLE OF VARIABLE MASS 97 5.16 ENERGY EQUATION IN INTEGRAL FORM 100 5.17 JUMP EQUATIONS AT INTERFACES 101 5.18 CONCLUSIONS 102 PROBLEMS 102 6 NEWTONIAN FLUIDS AND THE NAVIER-STOKES EQUATIONS 105 6.1 NEWTON S VISCOSITY LAW 105 6.2 MOLECULAR MODEL OF VISCOUS EFFECTS 108 6.3 NON-NEWTONIAN LIQUIDS 112 6.4 NO-SLIP CONDITION 115 6.5 FOURIER S HEAT CONDUCTION LAW 117 6.6 NAVIER-STOKES EQUATIONS 119 6.7 CONCLUSIONS 120 PROBLEMS 120 7 SOME INCOMPRESSIBLE FLOW PATTERNS 121 7.1 PRESSURE-DRIVEN FLOW IN A SLOT 121 7.2 MECHANICAL ENERGY, HEAD LOSS, AND BERNOULLI EQUATIONS 126 7.3 PLANE COUETTE FLOW 132 7.4 PRESSURE-DRIVEN FLOW IN A SLOT WITH A MOVING WALL 133 7.5 DOUBLE FALLING FILM ON A WALL 134 7.6 OUTER SOLUTION FOR ROTARY VISCOUS COUPLING 137 7.7 RAYLEIGH PROBLEM 138 7.8 CONCLUSIONS 143 PROBLEMS 144 8 DIMENSIONAL ANALYSIS 145 8.1 MEASUREMENT AND DIMENSIONS 145 8.2 VARIABLES AND FUNCTIONS 147 8.3 PI THEOREM AND ITS APPLICATION 150 8.4 PUMP OR BLOWER ANALYSIS: USE OF EXTRA ASSUMPTIONS 153 8.5 NUMBER OF PRIMARY DIMENSIONS 157 8.6 PROOF OF BRIDGMAN S EQUATION 159 8.7 PROOF OF THE PI THEOREM 161 8.8 DYNAMIC SIMILARITY 164 8.9 SIMILARITY WITH GEOMETRIC DISTORTION 165 8.10 NONDIMENSIONAL FORMULATION OF PHYSICAL PROBLEMS 168 CONCLUSIONS PROBLEMS 173 173 9 COMPRESSIBLE FLOW 175 9.1 9.2 9.3 9.4 10 COMPRESSIBLE COUETTE WALL 175 FLOW WITH POWER LAW PROPERTIES 178 INVISCID COMPRESSIBLE SOUND 180 CONCLUSIONS 186 PROBLEMS 187 INCOMPRESSIBLE FLOW FLOW: ADIABATIC TRANSPORT WAVES: SPEED OF 188 10.1 CHARACTERIZATION 188 10.2 INCOMPRESSIBLE FLOW AS LOW-MACH-NUMBER FLOW WITH ADIABATIC WALLS 189 10.3 NONDIMENSIONAL PROBLEM STATEMENT 191 10.4 CHARACTERISTICS OF INCOMPRESSIBLE FLOW 195 10.5 SPLITTING THE PRESSURE INTO KINETIC AND HYDROSTATIC PARTS 197 10.6 MATHEMATICAL ASPECTS OF THE LIMIT PROCESS M 2 * 0 200 10.7 INVARIANCE OF INCOMPRESSIBLE FLOW EQUATIONS UNDER UNSTEADY MOTION 201 10.8 LOW-MACH-NUMBER FLOWS WITH CONSTANT- TEMPERATURE WALLS 203 10.9 ENERGY EQUATION PARADOX 206 10.10 CONCLUSIONS 208 PROBLEMS 208 11 SOME SOLUTIONS OF THE NAVIER-STOKES EQUATIONS 210 11.1 PRESSURE-DRIVEN FLOW IN TUBES OF VARIOUS CROSS SECTIONS: ELLIPTICAL TUBE 211 11.2 FLOW IN A RECTANGULAR TUBE 213 11.3 CHANNEL WITH LONGITUDINAL RIBS 216 11.4 STOKES S OSCILLATING PLATE 218 11.5 WALL UNDER AN OSCILLATING FREE STREAM 221 11.6 TRANSIENT FOR A STOKES OSCILLATING PLATE 224 11.7 FLOW IN A SLOT WITH A STEADY AND OSCILLATING PRESSURE GRADIENT 226 11.8 DECAY OF AN IDEAL LINE VORTEX (OSEEN VORTEX) 230 11.9 PLANE STAGNATION-POINT FLOW (HIEMENZ FLOW) 235 11.10 BURGERS VORTEX 241 11.11 COMPLETE SOLUTION FOR ROTARY COUPLING 242 CONTENTS VII 11.12 VON KARMAN VISCOUS PUMP 11.13 CONCLUSIONS 248 PROBLEMS 249 244 12 STREAMFUNCTIONS AND THE VELOCITY POTENTIAL 251 12.1 STREAMLINES 251 12.2 STREAMFUNCTION FOR PLANE FLOWS 254 12.3 FLOW IN A SLOT WITH POROUS WALLS 256 12.4 STREAMLINES AND STREAMSURFACES FOR A THREE- DIMENSIONAL FLOW 259 12.5 VECTOR POTENTIAL AND THE E 2 OPERATOR 262 12.6 VELOCITY POTENTIAL AND THE UNSTEADY BERNOULLI EQUATION 266 12.7 FLOW CAUSED BY A SPHERE WITH VARIABLE RADIUS 267 12.8 CONCLUSIONS 269 PROBLEMS 270 13 VORTICITY DYNAMICS 271 13.1 VORTICITY 271 13.2 KINEMATIC RESULTS CONCERNING VORTICITY 272 13.3 VORTICITY EQUATION 274 13.4 VORTICITY DIFFUSION 275 13.5 VORTICITY INTENSIFICATION BY STRAINING VORTEX LINES 277 13.6 HILL S SPHERICAL VORTEX 278 13.7 PRODUCTION OF VORTICITY AT A STATIONARY WALL 280 13.8 PRODUCTION OF VORTICITY AT A TRANSLATING WALL 282 13.9 HELMHOLTZ S LAWS FOR INVISCID FLOW 284 13.10 KELVIN S THEOREM 285 13.11 INVISCID MOTION OF POINT VORTICES 286 13.12 RECONNECTION OF VORTEX LINES 288 13.13 DEVELOPMENT OF TYPICAL VORTICITY DISTRIBUTIONS 288 13.14 VORTEX BREAKDOWN 294 13.15 CONCLUSIONS 298 PROBLEMS 299 14 FLOWS AT MODERATE REYNOLDS NUMBERS 300 14.1 SOME UNUSUAL FLOW PATTERNS 301 14.2 ENTRANCE FLOWS 303 14.3 ENTRANCE FLOW INTO A CASCADE OF PLATES: COMPUTER SOLUTION BY THE STREAMFUNCTION- VORTICITY METHOD 305 14.4 ENTRANCE FLOW INTO A CASCADE OF PLATES: PRESSURE SOLUTION ,313 14.5 ENTRANCE FLOW INTO A CASCADE OF PLATES: RESULTS 316 14.6 FLOW AROUND A CIRCULAR CYLINDER 320 14.7 JEFFREY-HAMEL FLOW IN A WEDGE 336 14.8 LIMITING CASES FOR RE * » 0 AND RE * » -OO 340 14.9 CONCLUSIONS 344 PROBLEMS 345 15 ASYMPTOTIC ANALYSIS METHODS 347 15.1 OSCILLATION OF A GAS BUBBLE IN A LIQUID 347 15.2 ORDER SYMBOLS, GAUGE FUNCTIONS, AND ASYMPTOTIC EXPANSIONS 350 15.3 INVISCID FLOW OVER A WAVY WALL 353 15.4 NONUNIFORM EXPANSIONS: FRIEDRICH S PROBLEM 356 15.5 MATCHING PROCESS: VAN DYKE S RULE 358 15.6 COMPOSITE EXPANSIONS 363 15.7 CHARACTERISTICS OF OVERLAP REGIONS 365 15.8 LAGERSTROM S PROBLEMS 370 15.9 CONCLUSIONS 374 PROBLEMS 374 16 CHARACTERISTICS OF HIGH-REYNOLDS-NUMBER FLOWS 376 16.1 PHYSICAL MOTIVATION 376 16.2 INVISCID MAIN FLOWS: EULER EQUATIONS 378 16.3 PRESSURE CHANGES IN STEADY ROWS: BERNOULLI EQUATIONS 381 16.4 BOUNDARY LAYERS 385 16.5 CONCLUSIONS 395 PROBLEMS 395 17 KINEMATIC DECOMPOSITION OF FLOW FIELDS 396 17.1 GENERAL APPROACH 396 17.2 HELMHOLTZ S DECOMPOSITION 397 17.3 LINE VORTEX AND VORTEX SHEET 398 17.4 COMPLEX LAMELLAR DECOMPOSITION 401 17.5 CONCLUSIONS 404 PROBLEMS 404 18 IDEAL FLOWS IN A PLANE 405 18.1 PROBLEM FORMULATION FOR PLANE IDEAL FLOWS 406 VIII CONTENTS 18.2 SIMPLE PLANE FLOWS 409 18.3 LINE SOURCE AND LINE VORTEX 412 18.4 FLOW OVER A NOSE OR A CLIFF 414 18.5 DOUBLETS 420 18.6 CYLINDER IN A STREAM 422 18.7 CYLINDER WITH CIRCULATION IN A UNIFORM STREAM 424 18.8 LIFT AND DRAG ON TWO-DIMENSIONAL SHAPES 426 18.9 MAGNUS EFFECT 429 18.10 CONFORMAL TRANSFORMATIONS 431 18.11 JOUKOWSKI TRANSFORMATION: AIRFOIL GEOMETRY 434 18.12 KUTTA CONDITION 439 18.13 FLOW OVER A JOUKOWSKI AIRFOIL: AIRFOIL LIFT 442 18.14 NUMERICAL METHOD FOR AIRFOILS 448 18.15 ACTUAL AIRFOILS 451 18.16 SCHWARZ-CHRISTOFFEL TRANSFORMATION 453 18.17 DIFFUSER OR CONTRACTION FLOW 455 18.18 GRAVITY WAVES IN LIQUIDS 460 18.19 CONCLUSIONS 465 PROBLEMS 466 19 AXISYMMETRIC AND THREE-DIMENSIONAL IDEAL FLOWS 468 19.1 GENERAL EQUATIONS AND CHARACTERISTICS OF THREE-DIMENSIONAL IDEAL FLOWS 468 19.2 SWIRLING FLOW TURNED INTO AN ANNULUS 470 19.3 FLOW OVER A WEIR 471 19.4 POINT SOURCE 473 19.5 RANKINE NOSE SHAPE 474 19.6 EXPERIMENTS ON THE NOSE DRAG OF SLENDER SHAPES 477 19.7 FLOW FROM A DOUBLET 478 19.8 FLOW OVER A SPHERE 481 19.9 KINETIC ENERGY 483 19.10 WAKE DRAG OF BODIES 484 19.11 INDUCED DRAG: DRAG DUE TO LIFT 486 19.12 LIFTING LINE THEORY 490 19.13 ADDED MASS OF ACCELERATING BODIES 491 19.14 CONCLUSIONS 496 PROBLEMS 496 20 BOUNDARY LAYERS 498 20.1 BLASIUS FLOW OVER A FLAT PLATE 20.2 DISPLACEMENT THICKNESS 503 498 20.3 VON KARMA N MOMENTUM INTEGRAL 505 20.4 VON KARMAN-POHLHAUSEN APPROXIMATE METHOD 506 20.5 FALKNER-SKAN SIMILARITY SOLUTIONS 508 20.6 ARBITRARY TWO-DIMENSIONAL LAYERS: CRANK- NICOLSON DIFFERENCE METHOD 513 20.7 VERTICAL VELOCITY 521 20.8 JOUKOWSKI AIRFOIL BOUNDARY LAYER 524 20.9 BOUNDARY LAYER ON A BRIDGE PILING 527 20.10 BOUNDARY LAYERS BEGINNING AT INFINITY 530 20.11 PLANE BOUNDARY LAYER SEPARATION 535 20.12 AXISYMMETRIC BOUNDARY LAYERS 537 20.13 JETS 540 20.14 FAR WAKE OF NONLIFTING BODIES 543 20.15 FREE SHEAR LAYERS 546 20.16 UNSTEADY AND ERUPTING BOUNDARY LAYERS 548 20.17 ENTRANCE FLOW INTO A CASCADE 551 20.18 THREE-DIMENSIONAL BOUNDARY LAYERS 553 20.19 BOUNDARY LAYER WITH A CONSTANT TRANSVERSE PRESSURE GRADIENT 557 20.20 HOWARTH S STAGNATION POINT 561 20.21 THREE-DIMENSIONAL SEPARATION 564 20.22 CONCLUSIONS 568 PROBLEMS 568 21 FLOWS AT LOW REYNOLDS NUMBERS 571 21.1 GENERAL RELATIONS FOR RE -* 0: STOKES S EQUATIONS 571 21.2 GLOBAL EQUATIONS FOR STOKES FLOW 574 21.3 STREAMFUNCTION FOR PLANE AND AXISYMMETRIC FLOWS 577 21.4 INTERNAL FLOWS: PLANE 579 21.5 INTERNAL FLOWS: THREE-DIMENSIONAL AND AXISYMMETRIC 587 21.6 LOCAL FLOWS: PLANE (MOFFATT VORTICES) 591 21.7 LOCAL FLOWS: AXISYMMETRIC 596 21.8 EXTERNAL FLOW: SPHERE IN A UNIFORM STREAM 599 21.9 COMPOSITE EXPANSION FOR FLOW OVER A SPHERE 604 21.10 STOKES FLOW NEAR A CIRCULAR CYLINDER 605 21.11 AXISYMMETRIC PARTICLES 606 21.12 OSEEN S EQUATIONS 608 21.13 INTERFERENCE EFFECTS 609 21.14 CONCLUSIONS 611 PROBLEMS 611 CONTENTS IX 22 LUBRICATION APPROXIMATION 613 22.1 BASIC CHARACTERISTICS: CHANNEL FLOW 613 22.2 FLOW IN A CHANNEL WITH A POROUS WALL 616 22.3 REYNOLDS EQUATION FOR BEARING THEORY 618 22.4 SLIPPER PAD BEARING 620 22.5 SQUEEZE-FILM LUBRICATION: VISCOUS ADHESION 622 22.6 JOURNAL BEARING 623 22.7 CONCLUSIONS 627 PROBLEMS 627 23 SURFACE TENSION EFFECTS 629 23.1 INTERFACE CONCEPTS AND LAWS 629 23.2 STATICS: PLANE INTERFACES 636 23.3 STATICS: CYLINDRICAL INTERFACES 639 23.4 STATICS: ATTACHED BUBBLES AND DROPS 641 23.5 CONSTANT-TENSION ROWS: BUBBLE IN AN INFINITE STREAM 643 23.6 CONSTANT-TENSION FLOWS: CAPILLARY WAVES 646 23.7 MOVING CONTACT LINES 648 23.8 CONSTANT-TENSION FLOWS: COATING FLOWS 651 23.9 MARANGONI FLOW 656 23.10 CONCLUSIONS 665 PROBLEMS 665 24 INTRODUCTION TO MICROFLOWS 667 24.1 MOLECULES 667 24.2 CONTINUUM DESCRIPTION 669 24.3 COMPRESSIBLE FLOWS IN LONG CHANNELS 670 24.4 SIMPLE SOLUTIONS WITH SLIP 673 24.5 GASES 676 24.6 COUETTE FLOW IN GASES 680 24.7 POISEUILLE ROW IN GASES 682 24.8 GAS ROW OVER A SPHERE 687 24.9 LIQUID ROWS IN TUBES AND CHANNELS 690 24.10 LIQUID ROWS NEAR WALLS 692 24.11 CONCLUSIONS 697 25 INTRODUCTION TO STABILITY AND TRANSITION 698 25.1 LINEAR STABILITY AND NORMAL MODES AS PERTURBATIONS 699 25.2 KELVIN-HELMHOLTZ INVISCID SHEAR LAYER INSTABILITY 700 25.3 STABILITY PROBLEM FOR NEARLY PARALLEL VISCOUS ROWS 704 25.4 ORR-SOMMERFELD EQUATION 707 25.5 INVISCID STABILITY OF NEARLY PARALLEL ROWS 708 25.6 VISCOUS STABILITY OF NEARLY PARALLEL ROWS 709 25.7 EXPERIMENTS ON BLASIUS BOUNDARY LAYERS 712 25.8 TRANSITION, SECONDARY INSTABILITY, AND BYPASS 714 25.9 SPATIALLY DEVELOPING OPEN ROWS 719 25.10 TRANSITION IN FREE SHEAR ROWS 719 25.11 POISEUILLE AND PLANE COUETTE ROWS 721 25.12 INVISCID INSTABILITY OF ROWS WITH CURVED STREAMLINES 723 25.13 TAYLOR INSTABILITY OF COUETTE ROW 725 25.14 STABILITY OF REGIONS OF CONCENTRATED VORTICITY 727 25.15 OTHER INSTABILITIES: TAYLOR, CURVED PIPE, CAPILLARY JETS, AND GORTLER 728 25.16 CONCLUSIONS 731 26 INTRODUCTION TO TURBULENT FLOWS 732 26.1 TYPES OF TURBULENT FLOWS 732 26.2 CHARACTERISTICS OF TURBULENT ROWS 733 26.3 REYNOLDS DECOMPOSITION 736 26.4 REYNOLDS STRESS 737 26.5 FREE TURBULENCE: PLANE SHEAR LAYERS 740 26.6 FREE TURBULENCE: TURBULENT JET 741 26.7 BIFURCATING AND BLOOMING JETS 747 26.8 CORRELATIONS OF RUCTUATIONS 747 26.9 MEAN AND TURBULENT KINETIC ENERGY 750 26.10 ENERGY CASCADE: KOLMOGOROV SCALES AND TAYLOR MICROSCALE 752 26.11 WALL TURBULENCE: CHANNEL FLOW ANALYSIS 756 26.12 WALL LAYERS: EXPERIMENTS AND EMPIRICAL CORRELATION 764 26.13 TURBULENT STRUCTURES 768 26.14 CONCLUSIONS 773 A PROPERTIES OF FLUIDS 775 B DIFFERENTIAL OPERATIONS IN CYLINDRICAL AND SPHERICAL COORDINATES 776 X CONTENTS BASIC EQUATIONS IN RECTANGULAR, CYLINDRICAL, AND SPHERICAL COORDINATES 781 E COMPUTER CODE FOR ENTRANCE FLOW INTO A CASCADE 790 D STREAMFUNCTION RELATIONS IN RECTANGULAR, CYLINDRICAL, AND SPHERICAL COORDINATES 786 F COMPUTER CODE FOR BOUNDARY LAYER ANALYSIS 793 REFERENCES 796 INDEX 813
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author	Panton, Ronald L. 1933-
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id	DE-604.BV019866137
illustrated	Illustrated
indexdate	2024-07-09T20:07:55Z
institution	BVB
isbn	047126122X 9780471261223
language	English
lccn	2004060593
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-013190535
oclc_num	56895209
open_access_boolean
owner	DE-M49 DE-BY-TUM DE-703 DE-91G DE-BY-TUM
owner_facet	DE-M49 DE-BY-TUM DE-703 DE-91G DE-BY-TUM
physical	XVI, 821 S. Ill., graph. Darst.
publishDate	2005
publishDateSearch	2005
publishDateSort	2005
publisher	Wiley
record_format	marc
spelling	Panton, Ronald L. 1933- Verfasser (DE-588)172300827 aut Incompressible flow Ronald L. Panton 3. ed. New York [u.a.] Wiley 2005 XVI, 821 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Sıvı dinamiği aFluid dynamics Strömungsmechanik (DE-588)4077970-1 gnd rswk-swf Inkompressible Strömung (DE-588)4129759-3 gnd rswk-swf Strömungsmechanik (DE-588)4077970-1 s DE-604 Inkompressible Strömung (DE-588)4129759-3 s 1\p DE-604 HEBIS Datenaustausch Darmstadt application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=013190535&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk
spellingShingle	Panton, Ronald L. 1933- Incompressible flow Sıvı dinamiği aFluid dynamics Strömungsmechanik (DE-588)4077970-1 gnd Inkompressible Strömung (DE-588)4129759-3 gnd
subject_GND	(DE-588)4077970-1 (DE-588)4129759-3
title	Incompressible flow
title_auth	Incompressible flow
title_exact_search	Incompressible flow
title_full	Incompressible flow Ronald L. Panton
title_fullStr	Incompressible flow Ronald L. Panton
title_full_unstemmed	Incompressible flow Ronald L. Panton
title_short	Incompressible flow
title_sort	incompressible flow
topic	Sıvı dinamiği aFluid dynamics Strömungsmechanik (DE-588)4077970-1 gnd Inkompressible Strömung (DE-588)4129759-3 gnd
topic_facet	Sıvı dinamiği aFluid dynamics Strömungsmechanik Inkompressible Strömung
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=013190535&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT pantonronaldl incompressibleflow

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